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Basics of precision engineering / edited by Richard Leach & Stuart T. Smith

Contributor(s): Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Publisher: Boca Raton, FL : CRC Press, 2018Description: 1 Online-Ressource (676 pages)ISBN:
  • 9781498760874
  • 9780429887444
  • 9780429887437
Subject(s): Additional physical formats: 9781351204118 | 9781351204101 | 9781351204088 | 9781498760850. | Erscheint auch als: Basics of precision engineering. Druck-Ausgabe. Boca Raton : CRC Press, Taylor & Francis Group, a Chapman & Hall book, 2018. xv, 659 SeitenDDC classification:
  • 621.8/15
RVK: RVK: ZS 4000LOC classification:
  • TJ233
Online resources: Summary: 1.2.12 Psuedo-Kinematic Design1.2.13 Elastic Design and Elastic Averaging; 1.2.14 Plastic Design; 1.2.15 Reduction; 1.2.16 Cosine and Abbe Errors; 1.2.17 Design Inversion; 1.2.18 Energy Dissipation; 1.2.19 Test and Verify; 1.2.20 Occamâ#x80;#x99;s Razor; 1.3 Performance Measures; 1.4 Development of Precision Processes; 1.4.1 Ishikawa Diagrams for Precision; 1.4.2 Introduction to Project Management and System Engineering; 1.5 Limits of Precision; References; Chapter 2: Metrology; 2.1 Introduction; 2.2 Metrology and Precision Engineering; 2.3 Metrology and Control; 2.4 Accuracy, Precision and TruenessSummary: 3.3 Fourier Series3.4 Statistics; 3.4.1 Populations and Samples; 3.4.2 Discrete and Continuous Random Variables; 3.4.3 Parameters of Random Variables; 3.4.4 Distributions; 3.4.5 Sampling Distributions; 3.4.6 Studentâ#x80;#x99;s t-Distribution; 3.4.7 Ï#x87;2-Distribution; 3.4.8 F-Distribution; 3.4.9 Confidence Intervals; 3.4.10 t-Test; 3.4.11 Ï#x87;2-Test; 3.4.12 F-Test; 3.5 Some Concepts from Solid Mechanics; 3.5.1 Strain; 3.5.2 Stress; 3.5.3 Hookeâ#x80;#x99;s Law for Linear Elastic, Isotropic Materials; 3.5.4 Beam Theory; 3.5.5 Mohrâ#x80;#x99;s Circle; 3.5.6 Hertz Contact Theory; 3.5.6.1 Contact between Two SpheresSummary: 3.5.6.2 Contact between Two Parallel Cylinders3.5.7 Tangential Loading of Two Spheres in Contact; 3.6 Optics; 3.6.1 Law of Reflection; 3.6.2 Law of Refraction (Snellâ#x80;#x99;s Law); 3.6.3 Thin Lens Formula; 3.6.4 Wave Representation of Light; 3.6.5 Interference and Interferometry; 3.6.6 Diffraction; Exercises; References; Appendix; Chapter 4: Introduction to Dynamics: Implications on the Design of Precision Machines; 4.1 Introduction: A World in Motion; 4.2 Newtonâ#x80;#x99;s Laws of Motion for Particles and Rigid Bodies; 4.3 A Simple Model Involving Linear and Angular MotionSummary: "Advances in engineering precision have tracked with technological progress for hundreds of years. Over the last few decades, precision engineering has been the specific focus of research on an international scale. The outcome of this effort has been the establishment of a broad range of engineering principles and techniques that form the foundation of precision design. Today's precision manufacturing machines and measuring instruments represent highly specialised processes that combine deterministic engineering with metrology. Spanning a broad range of technology applications, precision engineering principles frequently bring together scientific ideas drawn from mechanics, materials, optics, electronics, control, thermo-mechanics, dynamics, and software engineering. This book provides a collection of these principles in a single source. Each topic is presented at a level suitable for both undergraduate students and precision engineers in the field. Also included is a wealth of references and example problems to consolidate ideas, and help guide the interested reader to more advanced literature on specific implementations."--Provided by publisherPPN: PPN: 1026215854Package identifier: Produktsigel: ZDB-4-NLEBK
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